A bruno-like Gene Is Required for Stem Cell Maintenance in Planarians

Tingxia Guo; Antoine H.F.M. Peters; Phillip A. Newmark

doi:10.1016/j.devcel.2006.06.004

A bruno-like Gene Is Required for Stem Cell Maintenance in Planarians

Tingxia Guo, Antoine H.F.M. Peters, Phillip A. Newmark

Research output: Contribution to journal › Article › peer-review

Abstract

The regenerative abilities of freshwater planarians are based on neoblasts, stem cells maintained throughout the animal's life. We show that a member of the Bruno-like family of RNA binding proteins is critical for regulating neoblasts in the planarian Schmidtea mediterranea. Smed-bruno-like (bruli) mRNA and protein are expressed in neoblasts and the central nervous system. Following bruli RNAi, which eliminates detectable Bruli protein, planarians initiate the proliferative response to amputation and form small blastemas but then undergo tissue regression and lysis. We characterize the neoblast population by using antibodies recognizing SMEDWI-1 and Histone H4 (monomethyl-K20) and cell-cycle markers to label subsets of neoblasts and their progeny. bruli knockdown results in a dramatic reduction/elimination of neoblasts. Our analyses indicate that neoblasts lacking Bruli can respond to wound stimuli and generate progeny that can form blastemas and differentiate; yet, they are unable to self-renew. These results suggest that Bruli is required for stem cell maintenance.

Original language	English (US)
Pages (from-to)	159-169
Number of pages	11
Journal	Developmental cell
Volume	11
Issue number	2
DOIs	https://doi.org/10.1016/j.devcel.2006.06.004
State	Published - Aug 2006
Externally published	Yes

Keywords

DEVBIO
STEMCELL

ASJC Scopus subject areas

Molecular Biology
Biochemistry, Genetics and Molecular Biology(all)
Developmental Biology
Cell Biology

Online availability

10.1016/j.devcel.2006.06.004

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title = "A bruno-like Gene Is Required for Stem Cell Maintenance in Planarians",

abstract = "The regenerative abilities of freshwater planarians are based on neoblasts, stem cells maintained throughout the animal's life. We show that a member of the Bruno-like family of RNA binding proteins is critical for regulating neoblasts in the planarian Schmidtea mediterranea. Smed-bruno-like (bruli) mRNA and protein are expressed in neoblasts and the central nervous system. Following bruli RNAi, which eliminates detectable Bruli protein, planarians initiate the proliferative response to amputation and form small blastemas but then undergo tissue regression and lysis. We characterize the neoblast population by using antibodies recognizing SMEDWI-1 and Histone H4 (monomethyl-K20) and cell-cycle markers to label subsets of neoblasts and their progeny. bruli knockdown results in a dramatic reduction/elimination of neoblasts. Our analyses indicate that neoblasts lacking Bruli can respond to wound stimuli and generate progeny that can form blastemas and differentiate; yet, they are unable to self-renew. These results suggest that Bruli is required for stem cell maintenance.",

keywords = "DEVBIO, STEMCELL",

author = "Tingxia Guo and Peters, {Antoine H.F.M.} and Newmark, {Phillip A.}",

note = "Funding Information: We would like to thank: Francesc Cebri{\`a}, David Forsthoefel, and Ricardo Zayas for critical reading of the manuscript; Craig Mizzen for anti-H3S10P antibodies and for suggesting Schaudin's fixative; Sarah Naylor for initial tests of Schaudin's fixative; Howard Ducoff for the use of his gamma source; and Carolin Kolb for excellent technical assistance. Genomic sequence data were produced by the Washington University Genome Sequencing Center in St. Louis. A.H.F.M.P. thanks Thomas Jenuwein for providing histone methylation specific antibodies to his laboratory. A.H.F.M.P. is supported by the Novartis Research Foundation and by the European Network of Excellence “The Epigenome” (LSHG-CT-2004-503433). This work was supported by National Institutes of Health grant R01 HD43403 and National Science Foundation CAREER Award IBN-0237825 to P.A.N. P.A.N. was a Damon Runyon Scholar supported by the Damon Runyon Cancer Research Foundation (DRS 33-03). ",

year = "2006",

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doi = "10.1016/j.devcel.2006.06.004",

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AU - Newmark, Phillip A.

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N2 - The regenerative abilities of freshwater planarians are based on neoblasts, stem cells maintained throughout the animal's life. We show that a member of the Bruno-like family of RNA binding proteins is critical for regulating neoblasts in the planarian Schmidtea mediterranea. Smed-bruno-like (bruli) mRNA and protein are expressed in neoblasts and the central nervous system. Following bruli RNAi, which eliminates detectable Bruli protein, planarians initiate the proliferative response to amputation and form small blastemas but then undergo tissue regression and lysis. We characterize the neoblast population by using antibodies recognizing SMEDWI-1 and Histone H4 (monomethyl-K20) and cell-cycle markers to label subsets of neoblasts and their progeny. bruli knockdown results in a dramatic reduction/elimination of neoblasts. Our analyses indicate that neoblasts lacking Bruli can respond to wound stimuli and generate progeny that can form blastemas and differentiate; yet, they are unable to self-renew. These results suggest that Bruli is required for stem cell maintenance.

AB - The regenerative abilities of freshwater planarians are based on neoblasts, stem cells maintained throughout the animal's life. We show that a member of the Bruno-like family of RNA binding proteins is critical for regulating neoblasts in the planarian Schmidtea mediterranea. Smed-bruno-like (bruli) mRNA and protein are expressed in neoblasts and the central nervous system. Following bruli RNAi, which eliminates detectable Bruli protein, planarians initiate the proliferative response to amputation and form small blastemas but then undergo tissue regression and lysis. We characterize the neoblast population by using antibodies recognizing SMEDWI-1 and Histone H4 (monomethyl-K20) and cell-cycle markers to label subsets of neoblasts and their progeny. bruli knockdown results in a dramatic reduction/elimination of neoblasts. Our analyses indicate that neoblasts lacking Bruli can respond to wound stimuli and generate progeny that can form blastemas and differentiate; yet, they are unable to self-renew. These results suggest that Bruli is required for stem cell maintenance.

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A bruno-like Gene Is Required for Stem Cell Maintenance in Planarians

Abstract

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